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Poor Bioavailability (poor + bioavailability)
Selected AbstractsPrebiotics and Iron Bioavailability,Is There a Connection?JOURNAL OF FOOD SCIENCE, Issue 5 2005Chi Kong Yeung ABSTRACT: Poor bioavailability of dietary iron, especially from diets rich in cereals and legumes, is a major factor contributing to the high prevalence of nutritional iron deficiency in developing countries. Dietary modification to increase intake of components that promote iron absorption from low-bioavailability meals is an effective strategy for combating nutritional iron deficiency. Prebiotics are nondigestible oligosaccharides that selectively stimulate the growth and activity of specific species of bacteria in the colon with benefits to human health. Common prebiotics such as inulin and fructooligosaccharides occur naturally in a wide variety of plant-based foods and have recently been suggested to have an enhancing effect on iron absorption. The hypothesis that prebiotics enhance iron absorption is biologically plausible because fermentation of prebiotics by natural microflora present in the colon may decrease the pH of the luminal content, promote reduction of Fe(III) to Fe(II), stimulate proliferation of epithelial cells to expand the absorptive surface area, and potentially stimulate expression of mineral-transport proteins in epithelial cells. However, data available in the literature characterizing the enhancing properties of prebiotics on iron absorption are inconsistent, and mechanisms of actions involved are poorly understood. The notion that the colon can function as a significant site of iron absorption in response to stimulation by prebiotics, and the effect of long-term exposure to prebiotics on the iron status of iron-deficient subjects remain to be clarified. This review discusses the functional properties of prebiotics as a promising dietary factor that enhances iron absorption. Keywords: prebiotics, iron, colon, oligosaccharides, inulin [source] Plasma profile and pharmacokinetics of dextromethorphan after intravenous and oral administration in healthy dogsJOURNAL OF VETERINARY PHARMACOLOGY & THERAPEUTICS, Issue 5 2004B. KuKanich Dextromethorphan is an N -methyl- d -aspartate (NMDA) noncompetitive antagonist which has been used as an antitussive, analgesic adjunct, probe drug, experimentally to attenuate acute opiate and ethanol withdrawal, and as an anticonvulsant. A metabolite of dextromethorphan, dextrorphan, has been shown to behave pharmacodynamically in a similar manner to dextromethorphan. The pharmacokinetics of dextromethorphan were examined in six healthy dogs following intravenous (2.2 mg/kg) and oral (5 mg/kg) administration in a randomized crossover design. Dextromethorphan behaved in a similar manner to other NMDA antagonists upon injection causing muscle rigidity, ataxia to recumbency, sedation, urination, and ptyalism which resolved within 90 min. One dog repeatedly vomited upon oral administration and was excluded from oral analysis. Mean ± SD values for half-life, apparent volume of distribution, and clearance after i.v. administration were 2.0 ±0.6 h, 5.1 ± 2.6 L/kg, and 33.8 ± 16.5 mL/min/kg. Oral bioavailability was 11% as calculated from naïve pooled data. Free dextrorphan was not detected in any plasma sample, however enzymatic treatment of plasma with glucuronidase released both dextromethorphan and dextrorphan indicating that conjugation is a metabolic route. The short half-life, rapid clearance, and poor bioavailability of dextromethorphan limit its potential use as a chronic orally administered therapeutic. [source] Isoxsuprine hydrochloride in the horse: a reviewJOURNAL OF VETERINARY PHARMACOLOGY & THERAPEUTICS, Issue 2 2002R. S. ERKERT Isoxsuprine hydrochloride has been suggested for use in horses for treatment of navicular syndrome and laminitis. The drug has been shown to be a , -adrenoreceptor antagonist with , -adrenoreceptor agonistic properties, with both characteristics contributing to vasodilation and uterine relaxation. In addition, the drug is capable of decreasing blood viscosity and platelet aggregation. Studies have shown i.v. isoxsuprine to have a plasma half-life of <3 h with a large apparent volume of distribution. Cardiovascular effects resolve rapidly following i.v. administration, but are absent with oral dosing. Oral bioavailability is 2.2% with a high first pass effect. Isoxsuprine has an apparent affinity for melanin that may contribute to extended renal excretion. Clinical trials appear to support the use of isoxsuprine for treatment of navicular disease. However, poor bioavailability, lack of cardiovascular effects following oral administration, superficial support in clinical trials, and new evidence regarding the pathogenesis of navicular syndrome indicate that the use of isoxsuprine for treatment of navicular syndrome or laminitis is questionable at best. [source] Design of translactam HCMV protease inhibitors as potent antiviralsMEDICINAL RESEARCH REVIEWS, Issue 4 2005Alan D. Borthwick Abstract Human cytomegalovirus (HCMV) is an important pathogen for which there is a significant unmet medical need. New HCMV antivirals, active against novel molecular targets, are undoubtedly needed as the currently available drugs ganciclovir, cidofovir, and foscarnet, which are all viral DNA inhibitors, suffer from limited effectiveness, mainly due to the development of drug resistance, poor bioavailability, and toxicity. One of the newer molecular targets that has been exploited in the search for better drug candidates is HCMV protease. Our ,Ala HCMV protease (wild type variant with the internal cleavage site deleted) was cloned and expressed in E. coli. This viral enzyme was used to develop HCMV protease assays to evaluate potential inhibitors. The chirally pure (SRS)-,-methyl pyrrolidine-5,5- trans -lactam template was synthesized, which together with the natural substrate requirements of HCMV protease and detailed SAR, was used to design potent and selective mechanism based inhibitors of HCMV protease. The mechanism of action of these inhibitors of HCMV protease was investigated by ESI/MS, and the X-ray crystal structure of the HCMV protease was used to refine our selective viral enzyme inhibitors to obtain plasma stable antivirals. A novel ELISA antiviral assay was developed which, together with a cytotoxicity assay, enabled us to discover anti-HCMV drug candidates equivalent in potency to ganciclovir that had good pharmacokinetics in the dog and good brain and ocular penetration in the guinea pig. © 2005 Wiley Periodicals, Inc. Med Res Rev. [source] Role of drug metabolism in drug discovery and developmentMEDICINAL RESEARCH REVIEWS, Issue 5 2001Gondi N. Kumar Abstract Metabolism by the host organism is one of the most important determinants of the pharmacokinetic profile of a drug. High metabolic lability usually leads to poor bioavailability and high clearance. Formation of active or toxic metabolites will have an impact on the pharmacological and toxicological outcomes. There is also potential for drug,drug interactions with coadministered drugs due to inhibition and/or induction of drug metabolism pathways. Hence, optimization of the metabolic liability and drug,drug interaction potential of the new chemical entities are some of the most important steps during the drug discovery process. The rate and site(s) of metabolism of new chemical entities by drug metabolizing enzymes are amenable to modulation by appropriate structural changes. Similarly, the potential for drug,drug interactions can also be minimized by appropriate structural modifications to the drug candidate. However, the optimization of the metabolic stability and drug,drug interaction potential during drug discovery stage has been largely by empirical methods and by trial and error. Recently, a lot of effort has been applied to develop predictive methods to aid the optimization process during drug discovery and development. This article reviews the role of drug metabolism in drug discovery and development. © 2001 John Wiley & Sons, Inc. Med Res Rev, 21, No. 5, 397,411, 2001 [source] Recent strategies in the development of new human cytomegalovirus inhibitorsMEDICINAL RESEARCH REVIEWS, Issue 3 2001Ana Martinez Abstract Human cytomegalovirus (HCMV) is one of the most common opportunistic infections in immunucompromised individuals, such as AIDS patients and organ transplant recipients, and is the most frequent congenital viral infection in humans. Despite a reduction of the incidence of AIDS-related opportunistic infections in patients under highly active antiretroviral treatment, attention should be paid to the HCMV risk factor in these individuals. Furthermore, HCMV may have an important role in atherosclerosis. Existing antiviral treatments for the HCMV infection suffer from poor bioavailability, toxicity, and limited effectiveness, mainly due to the development of drug resistance. Fortunately there are novel and potentially very effective new compounds undergoing pre-clinical and clinical evaluation. This review provides an overview in the last five years of new HCMV inhibitors (chemical structures, SAR, and new mechanisms of action) with the aim to provide new clues for the development of future drugs against this opportunistic virus. © 2001 John Wiley & Sons, Inc. Med Res Rev, 21, No. 3, 227,244, 2001 [source] Pharmacological and pharmacokinetic evaluation of celecoxib prodrugs in ratsBIOPHARMACEUTICS AND DRUG DISPOSITION, Issue 7 2002Rao N.V.S. Mamidi Abstract This study demonstrates the utility of an in vitro , in vivo correlative approach in the selection and optimization of a prodrug candidate of celecoxib (CBX), a COX2 inhibitor. As an initial screening step, a comparative single oral dose pharmacokinetic study was conducted in rats for CBX and its three aliphatic acyl water-soluble prodrugs viz., CBX-acetyl (CBX-AC), CBX-propionyl (CBX-PR) and CBX-butyryl (CBX-BU) at high equimolar dose, 100 mg/kg. Only CBX-BU and CBX-PR converted rapidly to CBX and yielded approximately five-fold greater systemic exposure of CBX than CBX alone or CBX-AC. Rank order of systemic exposure of prodrugs in its intact form was CBX-AC >CBX-PR >CBX-BU. Further in vitro hydrolysis studies of CBX prodrugs in intestinal mucosal suspensions and liver homogenates indicated that CBX-BU is rapidly and completely converted to CBX, whereas CBX-PR and CBX-AC require longer incubation period for complete conversion to CBX. There was a very good correlation of the in vitro and in vivo data supporting CBX-BU as the prodrug of choice. Further in vitro pharmacological studies showed that COX2 selective inhibition is improved for CBX-BU as compared to CBX-AC and CBX-PR. Dose proportionality in pharmacokinetic studies of CBX-BU and CBX at equimolar oral doses confirmed that relative oral bioavailability of CBX was improved following CBX-BU administration and there was linearity in pharmacokinetics of CBX over a wide dose range (10,100 mg/kg), whereas CBX in its conventional form showed poor bioavailability and lack of dose linearity in pharmacokinetics. The oral bioavailability of CBX from CBX-BU was dose independent and was in the range 78,96%. At a 50% reduced molar dose, CBX-BU showed an equivalent efficacy to that of CBX in the in vivo carrageenan model. Based on the study, water-soluble CBX-BU prodrug can be considered for clinical development in view of its potential advantages.Copyright © 2002 John Wiley & Sons, Ltd. [source] | |||||||||||||